Course presentation at the John-Molson School of Business of Concordia University (Montréal) on the emergence of 3D printing and how it impacts on business models and the supply chain
How 3D printers will change the supply chain management in Industry 4.0 (plea...Diogo Quental
The benefits of 3D Printing are becoming widely known and thus also the adoption of this technology.
From a situation where the question was “what can I print?”, the technology evolved now to a point where the question is “what can I not print?”.
Manufacturing with additive manufacturing processes is now growing exponentially, seeking the goal of “demand driven manufacturing”. Every day we learn about new success stories that are allowing better time to market and huge cost savings.
A brief analysis to what happened in other industries may also help to understand what can be the medium term evolution of 3D Printing and if how important is to start now using this technology.
(updated) How 3D printers will change the supply chain management in I4.0Diogo Quental
From a situation where the question was “what can I print?”, the technology evolved now to a point where the question is “what can I not print?”.
Manufacturing with additive manufacturing processes is now growing exponentially, seeking the goal of “demand driven manufacturing”. Every day we learn about new success stories that are allowing better time to market and huge cost savings.
A brief analysis to what happened in other industries may also help to understand what can be the medium term evolution of 3D Printing and if how important is to start now using this technology.
Additive Manufacturing: 3D Printing--Past, Present, and Future360mnbsu
This presentation explored the foundation of ‘the next industrial revolution’ - how additive manufacturing systems such as 3D printers and 3D production systems are changing the future of product development and manufacturing. Mr. Fischer presented examples of how design engineers use 3D production systems for concept modeling and prototyping, but also how manufacturing engineers are now employing these technologies for various applications such as jigs, fixtures, check gauges, and even as a bridge-to-tooling and low-volume end-use parts.
From the 2013 Taking Shape Summit: Additive Manufacturing: 3D Printing--Beyond Rapid Prototyping.
3d Printing: History and Current TechniquesDavid Gerhard
Why do we care about 3d printing? What are the economics of 3d printing? How do the different 3d printers work? How do you design something to be 3d printed?
Presentación de Esteban Rodríguez, Accenture en VI Summit País DigitalPAÍS DIGITAL
Exposición “The Mind of the Mine” de Esteban Rodríguez, Country Managing Director, Accenture Chile, en el marco del VI Summit País Digital 2018 (4 y 5 de septiembre)
How 3D printers will change the supply chain management in Industry 4.0 (plea...Diogo Quental
The benefits of 3D Printing are becoming widely known and thus also the adoption of this technology.
From a situation where the question was “what can I print?”, the technology evolved now to a point where the question is “what can I not print?”.
Manufacturing with additive manufacturing processes is now growing exponentially, seeking the goal of “demand driven manufacturing”. Every day we learn about new success stories that are allowing better time to market and huge cost savings.
A brief analysis to what happened in other industries may also help to understand what can be the medium term evolution of 3D Printing and if how important is to start now using this technology.
(updated) How 3D printers will change the supply chain management in I4.0Diogo Quental
From a situation where the question was “what can I print?”, the technology evolved now to a point where the question is “what can I not print?”.
Manufacturing with additive manufacturing processes is now growing exponentially, seeking the goal of “demand driven manufacturing”. Every day we learn about new success stories that are allowing better time to market and huge cost savings.
A brief analysis to what happened in other industries may also help to understand what can be the medium term evolution of 3D Printing and if how important is to start now using this technology.
Additive Manufacturing: 3D Printing--Past, Present, and Future360mnbsu
This presentation explored the foundation of ‘the next industrial revolution’ - how additive manufacturing systems such as 3D printers and 3D production systems are changing the future of product development and manufacturing. Mr. Fischer presented examples of how design engineers use 3D production systems for concept modeling and prototyping, but also how manufacturing engineers are now employing these technologies for various applications such as jigs, fixtures, check gauges, and even as a bridge-to-tooling and low-volume end-use parts.
From the 2013 Taking Shape Summit: Additive Manufacturing: 3D Printing--Beyond Rapid Prototyping.
3d Printing: History and Current TechniquesDavid Gerhard
Why do we care about 3d printing? What are the economics of 3d printing? How do the different 3d printers work? How do you design something to be 3d printed?
Presentación de Esteban Rodríguez, Accenture en VI Summit País DigitalPAÍS DIGITAL
Exposición “The Mind of the Mine” de Esteban Rodríguez, Country Managing Director, Accenture Chile, en el marco del VI Summit País Digital 2018 (4 y 5 de septiembre)
in this presentation i have discussed about 4D Printing technology. you can watch out it in video form on my You Tube channel https://youtu.be/ZDaurFz2byc
See Now, Buy Now, Print Now: How 3D Printing is Transforming the Fashion Indu...Amanda Cosco
3D printing is growing in popularity, but how will it impact the fashion industry? In this presentation delivered to the Hong Kong Productivity Council, I share my thoughts on how 3DP and AM (additive manufacturing) are transforming all aspects of fashion, from the way designers prototype to the ways garments actually are manufactured. In this presentation, I provide an overview of additive manufacturing today and then look at examples from popular culture to show how the technology is making its way into mainstream consciousness. I explore some 3DP fashion pioneers, including Iris Van Herpen, Anouk Wipprecht, Danit Peleg, Behnaz Farahi, Neri Oxman, and more to highlight both the possibilities and limitations of this new medium. Aside from costume and concept pieces, 3D printing is actually being used for commercial products. As such, I look at how the technology is appearing in consumer products in fashion and beauty. I illustrate the fashion opportunity for 3DP—mainly, the ability to produce custom products on demand in micro-factories closer to home, as well as regard some of the very real challenges facing designers. I close by looking into the future of 3DP for fashion, arguing that just as the spacesuits of astronauts enabled humankind to explore new environments, the 3DP fashions of the future will push us into a new kind of existence.
A case analysis of Nintendo that explains how the implementation of innovative strategies enables the company to remain competitive within the gaming industry.
Intelligent Manufacturing is a Smart Choice to gain on competitiveness and sustainability. Innovation technologies to boost productivity and visibility of manufacturing opearations.
This PPT will expose you to the transformation taking place, throughout the world, in the way that products are being designed and manufactured. The transformation is happening through digital manufacturing and design (DM&D) – a shift from paper-based processes to digital processes in the manufacturing industry.
You will gain an understanding of and appreciation for the role that technology is playing in this transition. The technology we use every day – whether it is communicating with friends and family, purchasing products or streaming entertainment – can benefit design and manufacturing, making companies and workers more competitive, agile and productive. Discover how this new approach to making products makes companies more responsive, and employees more involved and engaged, as new career paths in advanced manufacturing evolve.
This ppt of Digital Manufacturing & Design Technology specialization that explores the many facets of manufacturing’s “Fourth Revolution,” aka Industry 4.0, and features a culminating project involving creation of a roadmap to achieve a self-established DMD-related professional goal.
The case for 3D printing in the Always-On supply chainMarc-Andre Leger
Case 10-1 in the course book: Turban, Efraim. INFORMATION TECHNOLOGY FOR MANAGEMENT: On-Demand Strategies for Performance, Growth and Sustainability. Eleventh Edition. WILEY, 2018.
Design and Manufacturing of Sprocket using Additive Manufacturing Technologyijtsrd
Additive manufacturing, often referred to as 3D printing, has the potential to vastly accelerate innovation, compress supply chains, minimize materials and energy usage, and reduce waste. Originally developed at the Massachusetts Institute of Technology in 1993, 3D printing technology forms the basis of Z Corporation's prototyping process. 3DP technology creates 3D physical prototypes by solidifying layers of deposited powder using a liquid binder. By definition 3DP is an extremely versatile and rapid process accommodating geometry of varying complexity in hundreds of different applications, and supporting many types of materials. Z Corp. pioneered the commercial use of 3DP technology, developing 3D printers that leading manufacturers use to produce early concept models and product prototypes. Utilizing 3DP technology, Z Corp. has developed 3D printers that operate at unprecedented speeds, extremely low costs, and within a broad range of applications. This paper describes the core technology and its related applications. Additive manufacturing, often referred to as 3D printing, is a new way of making products and components from a digital model. Like an office printer that puts 2D digital files on a piece of paper, a 3D printer creates components by depositing thin layers of material one after another, only where required, using a digital blueprint until the exact component has been created. Interest in additive techniques is growing swiftly as applications have progressed from rapid prototyping to the production of end use products. Additive equipment can now use metals, polymers, composites, or other powders to print' a range of functional components, layer by layer, including complex structures that cannot be manufactured by other means. By eliminating production steps and using substantially less material, -additive' processes could be able to reduce waste and save more than 50 of energy compared to today's -subtractive' manufacturing processes, and reduce material costs by up to 90 . The use of additive manufacturing can potentially benefit a wide range of industries including defence, aerospace, automotive, biomedical, consumer products, and metals manufacturing. In this project, parametric model is done in Catia V5R20 and 3D printing is done in Cura software. B. Raghu | G. Sai Hitheswar Reddy | D. Rishikesh | K. Aseem Kumar "Design and Manufacturing of Sprocket using Additive Manufacturing Technology" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-1 , December 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29464.pdfPaper URL: https://www.ijtsrd.com/engineering/mechanical-engineering/29464/design-and-manufacturing-of-sprocket-using-additive-manufacturing-technology/b-raghu
in this presentation i have discussed about 4D Printing technology. you can watch out it in video form on my You Tube channel https://youtu.be/ZDaurFz2byc
See Now, Buy Now, Print Now: How 3D Printing is Transforming the Fashion Indu...Amanda Cosco
3D printing is growing in popularity, but how will it impact the fashion industry? In this presentation delivered to the Hong Kong Productivity Council, I share my thoughts on how 3DP and AM (additive manufacturing) are transforming all aspects of fashion, from the way designers prototype to the ways garments actually are manufactured. In this presentation, I provide an overview of additive manufacturing today and then look at examples from popular culture to show how the technology is making its way into mainstream consciousness. I explore some 3DP fashion pioneers, including Iris Van Herpen, Anouk Wipprecht, Danit Peleg, Behnaz Farahi, Neri Oxman, and more to highlight both the possibilities and limitations of this new medium. Aside from costume and concept pieces, 3D printing is actually being used for commercial products. As such, I look at how the technology is appearing in consumer products in fashion and beauty. I illustrate the fashion opportunity for 3DP—mainly, the ability to produce custom products on demand in micro-factories closer to home, as well as regard some of the very real challenges facing designers. I close by looking into the future of 3DP for fashion, arguing that just as the spacesuits of astronauts enabled humankind to explore new environments, the 3DP fashions of the future will push us into a new kind of existence.
A case analysis of Nintendo that explains how the implementation of innovative strategies enables the company to remain competitive within the gaming industry.
Intelligent Manufacturing is a Smart Choice to gain on competitiveness and sustainability. Innovation technologies to boost productivity and visibility of manufacturing opearations.
This PPT will expose you to the transformation taking place, throughout the world, in the way that products are being designed and manufactured. The transformation is happening through digital manufacturing and design (DM&D) – a shift from paper-based processes to digital processes in the manufacturing industry.
You will gain an understanding of and appreciation for the role that technology is playing in this transition. The technology we use every day – whether it is communicating with friends and family, purchasing products or streaming entertainment – can benefit design and manufacturing, making companies and workers more competitive, agile and productive. Discover how this new approach to making products makes companies more responsive, and employees more involved and engaged, as new career paths in advanced manufacturing evolve.
This ppt of Digital Manufacturing & Design Technology specialization that explores the many facets of manufacturing’s “Fourth Revolution,” aka Industry 4.0, and features a culminating project involving creation of a roadmap to achieve a self-established DMD-related professional goal.
The case for 3D printing in the Always-On supply chainMarc-Andre Leger
Case 10-1 in the course book: Turban, Efraim. INFORMATION TECHNOLOGY FOR MANAGEMENT: On-Demand Strategies for Performance, Growth and Sustainability. Eleventh Edition. WILEY, 2018.
Design and Manufacturing of Sprocket using Additive Manufacturing Technologyijtsrd
Additive manufacturing, often referred to as 3D printing, has the potential to vastly accelerate innovation, compress supply chains, minimize materials and energy usage, and reduce waste. Originally developed at the Massachusetts Institute of Technology in 1993, 3D printing technology forms the basis of Z Corporation's prototyping process. 3DP technology creates 3D physical prototypes by solidifying layers of deposited powder using a liquid binder. By definition 3DP is an extremely versatile and rapid process accommodating geometry of varying complexity in hundreds of different applications, and supporting many types of materials. Z Corp. pioneered the commercial use of 3DP technology, developing 3D printers that leading manufacturers use to produce early concept models and product prototypes. Utilizing 3DP technology, Z Corp. has developed 3D printers that operate at unprecedented speeds, extremely low costs, and within a broad range of applications. This paper describes the core technology and its related applications. Additive manufacturing, often referred to as 3D printing, is a new way of making products and components from a digital model. Like an office printer that puts 2D digital files on a piece of paper, a 3D printer creates components by depositing thin layers of material one after another, only where required, using a digital blueprint until the exact component has been created. Interest in additive techniques is growing swiftly as applications have progressed from rapid prototyping to the production of end use products. Additive equipment can now use metals, polymers, composites, or other powders to print' a range of functional components, layer by layer, including complex structures that cannot be manufactured by other means. By eliminating production steps and using substantially less material, -additive' processes could be able to reduce waste and save more than 50 of energy compared to today's -subtractive' manufacturing processes, and reduce material costs by up to 90 . The use of additive manufacturing can potentially benefit a wide range of industries including defence, aerospace, automotive, biomedical, consumer products, and metals manufacturing. In this project, parametric model is done in Catia V5R20 and 3D printing is done in Cura software. B. Raghu | G. Sai Hitheswar Reddy | D. Rishikesh | K. Aseem Kumar "Design and Manufacturing of Sprocket using Additive Manufacturing Technology" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-1 , December 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29464.pdfPaper URL: https://www.ijtsrd.com/engineering/mechanical-engineering/29464/design-and-manufacturing-of-sprocket-using-additive-manufacturing-technology/b-raghu
3D Printing - A Manufacturing RevolutionMichael Hu
The question is not if but when companies need to consider 3D printing. A.T. Kearney is helping forward-thinking players overcome the challenges and take advantage of powerful opportunities in this next generation of manufacturing.
A desk-research presentation showing the capacity, trends and foresights of 3D printing, especially related to the manufacturing industry and the emergence of the ´prosumer´ within the DYI community.
Accompanying article can be found here: http://www.barcinno.com/3dprinting/
Tags:
Additive manufacturing, 3D Printing, laminated object manufacturing, layered manufacturing, rapid prototyping (industrial), stereolithography, CAD/CAM, Fused deposition modelling, Laser sintering.
Harbor Research: 3D Printing Growth OpportunityHarbor Research
What is The Impact of 3D Printing on IoT?
3D Printing is already changing manufacturing and design processes, but the industry is poised for an even greater shift. Advancement in 3D printing processes will increase speed, complexity of materials, and quality of prints, while decreasing costs.
Though 3D printers have been in development for over 20 years, businesses have shown uneven adoption across commercial and industrial applications. We believe that the forces driving adoption are becoming aligned and 3D printing technology is poised to disrupt diverse sectors across the economy.
Read More on the Opportunity here: https://goo.gl/ZK9mny
3D printing is a manufacturing technique that transforms spools of plastic filament into physical objects. It is useful for prototypes and offers significant benefits for small and medium sized production runs. It is quickly becoming a mature manufacturing technology. It continues to grow and increase its market value. Today, more and more companies in different industries are embracing 3D printing technology worldwide. 3D printing has been adopted by students, entrepreneurs, hobbyists, and various industries. This paper provides an overview of 3D printing in business. Matthew N. O. Sadiku | Uwakwe C. Chukwu | Abayomi Ajayi-Majebi | Sarhan M. Musa "3D Printing in Business: An Overview" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-7 , December 2022, URL: https://www.ijtsrd.com/papers/ijtsrd52413.pdf Paper URL: https://www.ijtsrd.com/humanities-and-the-arts/education/52413/3d-printing-in-business-an-overview/matthew-n-o-sadiku
3D Printing & Additive Manufacturing: Industrial Applications Summit 2013 - the world's first industry-led forum designed specifically to identify the real business benefits and new opportunities these technologies present.
Hosting a cross-section of industry leaders and experts, you will be able to gain first hand insights on successful commercial applications, state of the art developments, and ultimately the steps necessary to enable scalability.
This presentation outlines the outcomes of 3D printing on entrepreneurship.
The evolution of 3D printers, The market opportunity, and the application in industry.
Blog – What is next for 3D Printing
3D printing continues to grow and expand its applications. USA is world-leader with the adoption of 3D printing. Canada has struggled with 3D adoption.
1. Addictive / 3D printing adoption - https://www.additivemanufacturing.media/articles/8-strategies-to-drive-additive-manufacturing-adoption-from-within-an-organization
2. Additive and open source AI - https://www.notebookcheck.net/MIT-accelerates-the-discovery-of-new-3D-printing-materials-with-open-source-AI-platform.573517.0.html
3. 10 best 3-D printing stocks - https://finance.yahoo.com/news/10-best-3d-printing-stocks-124549345.html
4. 3D applications - https://www.forbes.com/sites/forbes-personal-shopper/2021/10/18/new-macbook-pro-m1-16-inch-airpods-3/?sh=3c7992433e17
5. Risks - https://www.globaltechoutlook.com/all-you-need-to-know-about-the-hazardous-side-of-3d-printing/
6. Zero Trust and 3D printing - https://www.automationalley.com/articles/the-business-of-cybersecurity-in-advanced-manufacturing
7. Cloud migration - https://www.forbes.com/sites/forbesbusinesscouncil/2021/10/15/cloud-migration-challenges-for-manufacturers-transitioning-to-industry-40/?sh=327c48c067a6
8. Skills gaps - https://3dprintingindustry.com/news/sam-launches-european-skills-strategy-roadmap-to-tackle-3d-printing-skill-gaps-184601/
9. Future - https://www.cpacanada.ca/en/news/pivot-magazine/2021-10-15-printing-mosaic-manufacturing
10. Taxation / 3D – Governments around the world need to review their tax policies that relate to automation. https://www.thebalancesmb.com/capital-cost-computers-2948646
11. Adoption - https://blog.grabcad.com/blog/2021/07/21/countries-that-are-leading-the-way-in-3d-printing/
a. https://www.amchronicle.com/insights/exploring-canadas-additive-manufacturing-ecosystem/
Technology Trends Opportunity Assessment for Cleantech SectorsMax Tuttman
Walks through the construction of a framework to map how different technology trends interact with cleantech sectors of interest. Key areas of potential are highlighted.
DHL's Logistics Trend Radar, identifies 3D printing as one of the major disruptive trends to impact the logistics industry in the near future, creating instant production and distribution models. By DHL Customer Solutions & Innovation
This is a presentation I prepared for a course on emerging technologies and concepts for my students. I discuss the concept of Education 4.0 as a tool to help to rethink education to better align future workers, today's life-long learners, with the new business requirements of industrie 4.0
Pedagogical engineering model canvas version 1.0bMarc-Andre Leger
This is the 2nd version of the proposed Pedagogical Engineering Model Canvas that is still in development. This is based on the Business Model Canvas. The Business Model Canvas was initially proposed by Alexander Osterwalder based on his earlier work on Business Model Ontology. This is a tool I'm developing as a tool for instructional designers to create courses.
A short presentation on the concept of Maturity Models in business organizations. This was used in a university course as an introduction to the concept.
Pedagogical engineering for STEAM education in Fab Labs and makerspacesMarc-Andre Leger
This is a conference I presented on pedagogical engineering applied to STEAM education in Fab Labs and makerspaces. This was used in a workshop at FAB 14 EDUcation in Bataville France in 2018. It also introduces the idea of the Course engineering canvas model, inspired by the Business Model Canvas proposed by Alexander Osterwalder.
La gouvernance de fablabs et makerspace au CanadaMarc-Andre Leger
Powerpoint de ma présentation lors de la 3ème édition des Printemps de l'École des Hautes Études Publiques de l'Université de Moncton du jeudi 04 avril 2019 au campus de l'Université de Moncton.
Titre: Les laboratoires de fabrication au profit du développement territorial et de l’éducation : quelles gouvernances locales ?
Description: Les fab labs et les makerspaces se multiplient à travers le monde. Ils sont présentés comme étant de nouveaux tiers-lieux de collaboration et d’échange ouvert à tous au sein desquels tout est possible. Ces lieux permettent l'émergence de nombreuses innovations pédagogiques. Ils facilitent les rencontres entre les créatifs et les créateurs (Makers). De belles initiatives sont en cours au Canada dans les établissements d'enseignement. Ainsi, les pouvoirs publics tendent à favoriser la création de laboratoires de fabrication (Fab labs) au sein des établissements post-secondaires afin de développer les compétences du 21ème siècle. Cette présentation discutera de la convergence des intérêts du milieu professionnel et du milieu éducatif au sein des fab labs contribuant à créer un avantage compétitif au Canada, ainsi que des enjeux de gouvernance qui ralentissent le développement d’un véritable réseau tel qu’on peut l’observer ailleurs dans le monde.
This is a class presentation on the Emerging Technology Analysis Canvas (ETAC), a framework to assess emerging technologies. It was created for students in a course on emerging technologies.
Discover the innovative and creative projects that highlight my journey throu...dylandmeas
Discover the innovative and creative projects that highlight my journey through Full Sail University. Below, you’ll find a collection of my work showcasing my skills and expertise in digital marketing, event planning, and media production.
Unveiling the Secrets How Does Generative AI Work.pdfSam H
At its core, generative artificial intelligence relies on the concept of generative models, which serve as engines that churn out entirely new data resembling their training data. It is like a sculptor who has studied so many forms found in nature and then uses this knowledge to create sculptures from his imagination that have never been seen before anywhere else. If taken to cyberspace, gans work almost the same way.
Implicitly or explicitly all competing businesses employ a strategy to select a mix
of marketing resources. Formulating such competitive strategies fundamentally
involves recognizing relationships between elements of the marketing mix (e.g.,
price and product quality), as well as assessing competitive and market conditions
(i.e., industry structure in the language of economics).
Attending a job Interview for B1 and B2 Englsih learnersErika906060
It is a sample of an interview for a business english class for pre-intermediate and intermediate english students with emphasis on the speking ability.
Putting the SPARK into Virtual Training.pptxCynthia Clay
This 60-minute webinar, sponsored by Adobe, was delivered for the Training Mag Network. It explored the five elements of SPARK: Storytelling, Purpose, Action, Relationships, and Kudos. Knowing how to tell a well-structured story is key to building long-term memory. Stating a clear purpose that doesn't take away from the discovery learning process is critical. Ensuring that people move from theory to practical application is imperative. Creating strong social learning is the key to commitment and engagement. Validating and affirming participants' comments is the way to create a positive learning environment.
Tata Group Dials Taiwan for Its Chipmaking Ambition in Gujarat’s DholeraAvirahi City Dholera
The Tata Group, a titan of Indian industry, is making waves with its advanced talks with Taiwanese chipmakers Powerchip Semiconductor Manufacturing Corporation (PSMC) and UMC Group. The goal? Establishing a cutting-edge semiconductor fabrication unit (fab) in Dholera, Gujarat. This isn’t just any project; it’s a potential game changer for India’s chipmaking aspirations and a boon for investors seeking promising residential projects in dholera sir.
Visit : https://www.avirahi.com/blog/tata-group-dials-taiwan-for-its-chipmaking-ambition-in-gujarats-dholera/
What are the main advantages of using HR recruiter services.pdfHumanResourceDimensi1
HR recruiter services offer top talents to companies according to their specific needs. They handle all recruitment tasks from job posting to onboarding and help companies concentrate on their business growth. With their expertise and years of experience, they streamline the hiring process and save time and resources for the company.
Cracking the Workplace Discipline Code Main.pptxWorkforce Group
Cultivating and maintaining discipline within teams is a critical differentiator for successful organisations.
Forward-thinking leaders and business managers understand the impact that discipline has on organisational success. A disciplined workforce operates with clarity, focus, and a shared understanding of expectations, ultimately driving better results, optimising productivity, and facilitating seamless collaboration.
Although discipline is not a one-size-fits-all approach, it can help create a work environment that encourages personal growth and accountability rather than solely relying on punitive measures.
In this deck, you will learn the significance of workplace discipline for organisational success. You’ll also learn
• Four (4) workplace discipline methods you should consider
• The best and most practical approach to implementing workplace discipline.
• Three (3) key tips to maintain a disciplined workplace.
Memorandum Of Association Constitution of Company.pptseri bangash
www.seribangash.com
A Memorandum of Association (MOA) is a legal document that outlines the fundamental principles and objectives upon which a company operates. It serves as the company's charter or constitution and defines the scope of its activities. Here's a detailed note on the MOA:
Contents of Memorandum of Association:
Name Clause: This clause states the name of the company, which should end with words like "Limited" or "Ltd." for a public limited company and "Private Limited" or "Pvt. Ltd." for a private limited company.
https://seribangash.com/article-of-association-is-legal-doc-of-company/
Registered Office Clause: It specifies the location where the company's registered office is situated. This office is where all official communications and notices are sent.
Objective Clause: This clause delineates the main objectives for which the company is formed. It's important to define these objectives clearly, as the company cannot undertake activities beyond those mentioned in this clause.
www.seribangash.com
Liability Clause: It outlines the extent of liability of the company's members. In the case of companies limited by shares, the liability of members is limited to the amount unpaid on their shares. For companies limited by guarantee, members' liability is limited to the amount they undertake to contribute if the company is wound up.
https://seribangash.com/promotors-is-person-conceived-formation-company/
Capital Clause: This clause specifies the authorized capital of the company, i.e., the maximum amount of share capital the company is authorized to issue. It also mentions the division of this capital into shares and their respective nominal value.
Association Clause: It simply states that the subscribers wish to form a company and agree to become members of it, in accordance with the terms of the MOA.
Importance of Memorandum of Association:
Legal Requirement: The MOA is a legal requirement for the formation of a company. It must be filed with the Registrar of Companies during the incorporation process.
Constitutional Document: It serves as the company's constitutional document, defining its scope, powers, and limitations.
Protection of Members: It protects the interests of the company's members by clearly defining the objectives and limiting their liability.
External Communication: It provides clarity to external parties, such as investors, creditors, and regulatory authorities, regarding the company's objectives and powers.
https://seribangash.com/difference-public-and-private-company-law/
Binding Authority: The company and its members are bound by the provisions of the MOA. Any action taken beyond its scope may be considered ultra vires (beyond the powers) of the company and therefore void.
Amendment of MOA:
While the MOA lays down the company's fundamental principles, it is not entirely immutable. It can be amended, but only under specific circumstances and in compliance with legal procedures. Amendments typically require shareholder
"𝑩𝑬𝑮𝑼𝑵 𝑾𝑰𝑻𝑯 𝑻𝑱 𝑰𝑺 𝑯𝑨𝑳𝑭 𝑫𝑶𝑵𝑬"
𝐓𝐉 𝐂𝐨𝐦𝐬 (𝐓𝐉 𝐂𝐨𝐦𝐦𝐮𝐧𝐢𝐜𝐚𝐭𝐢𝐨𝐧𝐬) is a professional event agency that includes experts in the event-organizing market in Vietnam, Korea, and ASEAN countries. We provide unlimited types of events from Music concerts, Fan meetings, and Culture festivals to Corporate events, Internal company events, Golf tournaments, MICE events, and Exhibitions.
𝐓𝐉 𝐂𝐨𝐦𝐬 provides unlimited package services including such as Event organizing, Event planning, Event production, Manpower, PR marketing, Design 2D/3D, VIP protocols, Interpreter agency, etc.
Sports events - Golf competitions/billiards competitions/company sports events: dynamic and challenging
⭐ 𝐅𝐞𝐚𝐭𝐮𝐫𝐞𝐝 𝐩𝐫𝐨𝐣𝐞𝐜𝐭𝐬:
➢ 2024 BAEKHYUN [Lonsdaleite] IN HO CHI MINH
➢ SUPER JUNIOR-L.S.S. THE SHOW : Th3ee Guys in HO CHI MINH
➢FreenBecky 1st Fan Meeting in Vietnam
➢CHILDREN ART EXHIBITION 2024: BEYOND BARRIERS
➢ WOW K-Music Festival 2023
➢ Winner [CROSS] Tour in HCM
➢ Super Show 9 in HCM with Super Junior
➢ HCMC - Gyeongsangbuk-do Culture and Tourism Festival
➢ Korean Vietnam Partnership - Fair with LG
➢ Korean President visits Samsung Electronics R&D Center
➢ Vietnam Food Expo with Lotte Wellfood
"𝐄𝐯𝐞𝐫𝐲 𝐞𝐯𝐞𝐧𝐭 𝐢𝐬 𝐚 𝐬𝐭𝐨𝐫𝐲, 𝐚 𝐬𝐩𝐞𝐜𝐢𝐚𝐥 𝐣𝐨𝐮𝐫𝐧𝐞𝐲. 𝐖𝐞 𝐚𝐥𝐰𝐚𝐲𝐬 𝐛𝐞𝐥𝐢𝐞𝐯𝐞 𝐭𝐡𝐚𝐭 𝐬𝐡𝐨𝐫𝐭𝐥𝐲 𝐲𝐨𝐮 𝐰𝐢𝐥𝐥 𝐛𝐞 𝐚 𝐩𝐚𝐫𝐭 𝐨𝐟 𝐨𝐮𝐫 𝐬𝐭𝐨𝐫𝐢𝐞𝐬."
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Enterprise Excellence is Inclusive Excellence.pdfKaiNexus
Enterprise excellence and inclusive excellence are closely linked, and real-world challenges have shown that both are essential to the success of any organization. To achieve enterprise excellence, organizations must focus on improving their operations and processes while creating an inclusive environment that engages everyone. In this interactive session, the facilitator will highlight commonly established business practices and how they limit our ability to engage everyone every day. More importantly, though, participants will likely gain increased awareness of what we can do differently to maximize enterprise excellence through deliberate inclusion.
What is Enterprise Excellence?
Enterprise Excellence is a holistic approach that's aimed at achieving world-class performance across all aspects of the organization.
What might I learn?
A way to engage all in creating Inclusive Excellence. Lessons from the US military and their parallels to the story of Harry Potter. How belt systems and CI teams can destroy inclusive practices. How leadership language invites people to the party. There are three things leaders can do to engage everyone every day: maximizing psychological safety to create environments where folks learn, contribute, and challenge the status quo.
Who might benefit? Anyone and everyone leading folks from the shop floor to top floor.
Dr. William Harvey is a seasoned Operations Leader with extensive experience in chemical processing, manufacturing, and operations management. At Michelman, he currently oversees multiple sites, leading teams in strategic planning and coaching/practicing continuous improvement. William is set to start his eighth year of teaching at the University of Cincinnati where he teaches marketing, finance, and management. William holds various certifications in change management, quality, leadership, operational excellence, team building, and DiSC, among others.
4. Case questions from class
Compare and contrast the predictions made by Goldman Sachs, Gartner,
MHI/Deloitte, and McKinsey on the impact of 3D printing.
Discuss the differences between the traditional linear supply chain and the
always-on supply chain.
Explain how the manufacturing supply chain will be changed by 3D printing.
In what situations is 3D printing most valuable?
Explain why medical use of 3D printing is growing at an extremely rapid pace.
Name four industries in which 3D printing is changing the supply chain.
Do you consider 3D printing an important technology? Explain.
Q1
Q2
Q3
Q4
Q5
Q6
Q7
Turban(2018)
5. Supply Chain: journey of a product
• the flow of materials, data, and money
• The journey from raw material suppliers to customers
• A pipeline of multiple stakeholders that coordinate activities to
differentiate themselves from their competitors.
Turban(2018) page 313
Q3
6. We all need a simple tool to
make 3D objects. It’s the dream of the Star
Trek replicator.
Ultimaker, Prusa and multiple
vendors are developing new products, STEAM
educators, engineers, designers, architects and
many others are interested in this technology.
The biggest change was the
expiry of the patents a few years ago and the
arrival of new vendors of low priced printers.
New materials are emerging that are stronger. Faster and cheaper printers
are making this more affordable. They are getting easier to use. Larger sizes are coming
soon.
3D printing enables a shift from designing for ideal manufacturing to manufacturing the ideal design. It has beneficial impact on finances by cutting production, inventory and manufacturing
costs. 3D printing enable new value propositions that transform existing and facilitate new customer relationships. It can be a disruptive technology that enables radically new business
models such as mass customization. It allows increased readiness for the digital revolution, Internet of Things or Industry 4.0.
DIY and Maker movement,
Maker Faire and arrival of
makerspaces and Fab Labs in
schools and communities.
Potentially affect all industries.
Education sector.
Speed up innovation, allow short run of products,
create now light products, improve inventory
management. Increased readiness for the digital
revolution, Internet of Things or Industry 4.0.
Speed up product development and prototyping,
make it simple to create model to later make
injection molds. Simplify early product testing
and market identification.
Rather than stocking parts they can be made on
demand and near to the point of use.
Reduced production costs and times.
Less need for expensive and dedicated tooling.
There are more opportunities for training in K-12,
colleges, universities and non-profit centers like
makerspaces and FabLabs. The skills required to
operate are more available.
The biggest issue is creating
reliable fast large size printers or developing
environmentally sustainable materials.
Reduced environmental impact, reduced energy usage and material waste.
Possible environmental issues (emissions). Sustainability may be an issue. Many players in
the industry.
Emerging Technology Assessment Canvas: 3D printing
Created by Marc-Andre Leger, John-Molson School of Business, Concordia University, ma.leger@Concordia.ca
7. Technologies that
can increase
competitive
advantage or disrupt
an organization:
• Robotics and automation
• Inventory and Network Optimization Tools
• Sensors and automatic identification
• Predictive Analytics
• Wearables and mobile technology
• Driverless vehicles and drones
• Inventory and network optimization tools
• Cloud computing and storage
•3D printing
From Turban p.317Q1
8. Segars, A. H. (2018). Seven technologies
remaking the world. MIT Sloan Management
Q1
11. What is 3D printing ?
• Additive manufacturing
• X-Y then move up Z
• Many processes:
• SLA
• SLS
• FDM
• Many materials :
• Plastics and polymers
• Ceramics
• Cement
• Food paste, chocolate, sugar
• Biological materials
• Metal
12. Potential benefits of additive manufacturing
over subtractive manufacturing
• reduced production costs and times;
• ability to create objects, with extremely complex
geometries, optimized for their specific function;
• capacity to radically redesign products and to create
materials with enhanced properties;
• cost-effective, low-volume and flexible production;
• less need for expensive and dedicated tooling;
• reduced environmental impact, reduced energy
usage and reduced material waste;
• better-distributed manufacturing;
• increased readiness for the digital
revolution, Internet of Things or Industry 4.0.
Imperial College London, Institute for Molecular Science
and Engineering, Briefing paper No 2, September 2017,
The value of additive manufacturing: future opportunities
13. What changed
since 1983 ?
• 20 year patent protection end
• Reprap project
• STEAM education
• DIY movement
• MAKE: magazine
• Fab Labs
• Makerspaces
• Hackerspaces
18. The IT Impact of 3D Printing on Business Models
• Enables a shift from designing for ideal manufacturing to
manufacturing the ideal design.
• Beneficial impact on finances by cutting production, inventory and
manufacturing costs.
• Enable new value propositions that transform existing and
facilitate new customer relationships.
• Can be a disruptive technology that enables radically new business
models such as mass customization.
Gartner group report published 28 March 2018 - ID G00348118
23. The “always-on” supply chain
• “an integrated set of supply networks characterized by a continuous,
high-velocity flow of information and analytics, creating predictive,
actionable decisions that better serve the customer.”
2016 MHI Annual Industry Report
Q2
24. How does 3DP impact the Supply Chain ?
Advantages Challenges
• Lowers barriers to market entry
• Direct production from CAD
• Designs easily shared
• Reduced lead times
• No switchover costs
• Direct interaction local consumer – producer
• Enables the radical localization to demand locations
• Goods are paid prior to manufacturing
• Optimized supply chains
• Small batches of customized products
• Reduced inventory of spare parts
• On-demand manufacturing
• Making to order reduces inventory risk
• Material savings
• Reduced raw material consumption
• Ability to reuse waste material
• Cost and speed of production
• Perception of only for rapid prototyping
• Changing the way that designers think
• Development and standardization of new materials
• Validation of mechanical and thermal properties
• Development of multi-material and multi-color
• Automation of systems and process planning
• Post-processing is often required
• Support structure materials cannot be recycled
• Intellectual property issues
• Deficits in skilled designers and engineers
• Non-linear, localized collaboration
• Ill-defined roles and responsibilities
• Continuously changing competitive landscape
Cotteleer (2014), Mellor et al.(2014) in Garmulewicz et al.(2018); Ford(2005)
Q2Q3
25. Industry / Sector Examples of use and applications
Consumer-product designers • Building prototypes
• Wearable / smart products
Automotive • Replacement, vintage or customized parts and products
Medical / Healthcare • Orthopedics, prosthetics and biosynthetic composites
• Bone repair, skull or cartilage,
• Skin reconstruction, stem cells and organ replacement
• Medical instruments and spare parts
• Bioprinting, custom and designer drugs, drug delivery mecanisms
Defence industry & Military • Production of parts in the field, repairs, special projects
Dental labs • Bridges, implants and crowns, dentures
Retail • Parts
• On-demand products
• Inventory reduction
Aerospace • Prototypes and lightweight parts
Jewellery • Finished products or model for casting
Manufacturing • Rapid, iterative prototyping of products for existing and new markets
• Making tooling, jigs and fixtures used to make or assemble parts
• Finished goods or component of a larger product
• Model to create a mold used in injection molding
Q5
Q6
26. According to the 400 plus companies
survey in the 3D Hubs report, 3D printing
serves two major functions across its
wide range of industries
prototype
and
additive
manufacturing
Q4
https://www.3dhubs.com/blog/3d-printing-trends-q1-2019/
27. • Essentium recent survey on production 3D printing usage.
• n = 114 In positions of authority for acquiring and dealing with 3D printers
https://www.fabbaloo.com/blog/2019/3/23/essentiums-survey-results?utm_source=Fabbaloo+Daily+Newsletter&utm_campaign=c77e0bc6bd-
RSS_EMAIL_CAMPAIGN&utm_medium=email&utm_term=0_f52584965b-c77e0bc6bd-116537717
34. Top challenges in using additive manufacturing
now and in the future.
• Equipment costs
• Manufacturing costs
• Post-processing requirements
• Limited materials
• Lack of clear business case to
justify investment,
• Lack of talent to utilize the
technology effectively,
• Poor technical integration
• Cultural aversion to risk.
https://www.stratasysdirect.com/manufacturing-services/3d-printing/3d-printing-adoption-challenges Gartner(2018), (Turban 318)
35.
36. Recommendation
for managers
3D printing has not yet reached the
point where its cost, speed, and
scalability can compete with
traditional manufacturing.
It’s great for product development,
testing and prototyping.
As new materials arrive, cost
decrease and speed increases,
managers need to have it on their
radar.
41. Locally productive, globally connected cities
Enabling a shift away from the industrial paradigm of Product-in Trash-out, by
enabling the return of manufacture to cities supported by a Data-in Data-out urban model.
42. Maniruzzaman, M. (2018), 3D and 4D Printing in Biomedical Applications: Process Engineering and Additive Manufacturing, Wiley, ISBN: 978-3-527-81369-8 November 2018, 300 Pages
43. Gartner group
recommendations on
4D printing for CIOs seeking
to accelerate digitalization:
• Determine the innovation
trends by monitoring
VC investments
• Ensure supply chain resiliency
by working with partners
• Implement an innovation center
• Have R&D teams evaluate
4D Printing potential now
Case question 1: Compare and contrast the predictions made on the impact of 3D printing.
Segars, A. H. (2018). Seven technologies remaking the world. MIT Sloan Management Review. Retrieved from https://sloanreview.mit.edu/projects/seven-technologies-remaking-the-world
Case question 1: Compare and contrast the predictions made on the impact of 3D printing.
case question 1: Compare and contrast the predictions made on the impact of 3D printing.
Case question Do you consider 3D printing an important technology?
Case question 1: Compare and contrast the predictions made on the impact of 3D printing.
Case question 3: Explain how the manufacturing supply chain will be changed by 3D printing
3D printing is a process that has less overhead costs and allows for more complex designs. The manufacturing processes are clean and energy-efficient. Compared to traditional manufacturing and prototyping methods, 3D printing offers high levels of customization, reduced costs for complex designs, and lower overhead costs for short-run parts and products. According to McKinsey, 3D printing will have an impact on consumer sectors that place a premium on highly customizable products, for example, footwear, toys, and jewelry. McKinsey estimates that by 2025 sales of 3D-printed products in these three industries alone may reach $550 billion per year.
Case question 2: The differences between the traditional linear supply chain and the always on supply chain
In the past, supply chains were linear and companies tackled supply chain challenges primarily by focusing on internal cost reduction and improved operational efficiency. But traditional approaches are less effective as supply chains become longer and more interconnected, and there are higher stakeholder expectations and more sources of risk.
Always-on supply chains are more connected, intelligent, scalable and agile. Sensors that enable data collection and advancements in computing power have improved predictive analytics. Supplemental tools, such as automation and wearables are creating digital, continuously operating supply chains and an interconnected network of supply chain workers.
Case Question 6. Name four industries in which 3D printing is changing the supply chain.
Case question 4: In what situations is 3D printing most valuable?
Case question 5: Explain why medical use of 3D printing is growing at an extremely rapid.
The outlook for medical use of 3D printing is growing at an extremely rapid pace as specialists are beginning to utilize 3D printing of 3D printed implants and prosthetics.
For example, hip surgery done with a 3D-printed titanium implant and bone stem cell graft has been conducted in the U.K. The hip part was de-signed using the patient’s CT scan, thereby matching the patient’s exact specifications and measurements. Even more radical is the potential for complex and controversial 3D bioprinting of human tissue and organs. Scientists are already 3D-printing organ tissue.